• 姓       名:邓杨
    出生日期: 1993-04
    职       称:副教授
    所在部门:
    学       历:博士研究生
    硕导/博导:
    地       址:化工馆
    电子邮箱:tylgdyang@163.com
    教育教学与人才培养
    科学研究与社会服务
    1.研究方向
    (1) 新型COFs复合材料的设计合成;
    (2) 光催化污染物降解;
    (3) 电催化水解;
    2.代表性论文 (限5篇,时间倒序)
    (1)Yang Deng,Yue Wang, Zichen Di, et al. Confining Metal-Organic Framework in the Pore of Covalent Organic Framework: A Microscale Z-Scheme System for Boosting Photocatalytic Performance. Small Methods, 2022, 6, 2200265. (IF: 15.367).
    (2)Yang Deng, Yue Wang, Jiashun Wang, et al. Dynamic covalent chemistry concept toward preparing crystalline covalent organic frameworks for dual-mode acidochromic responses. Materials Today Chemistry, 2022, 26, 101027. (IF: 7.613).
    (3)Yang Deng, Zhen Zhang, Xingming Ning, et al. Embedding Ultrasmall Au Clusters into the Pores of a Covalent Organic Framework for Enhanced Photostability and Photocatalytic Performance. Angewandte Chemie International Edition, 2020, 59, 6082-6089. (IF: 15.3)
    (4)Yang Deng, Dianqi Li, Xingming Ning, et al. Self-Assembly of Biocompatible FeSe Hollow Nanostructures and 2D CuFeSe Nanosheets with One- and Two-Photon Luminescence Properties. Small, 2019, 15, 1900627. (IF: 15.153).
    (5)Yang Deng, Weiping Niu, Zhijun Wang, et al. Synthesis, photoelectric properties and application of a polymerfluorescent probe with quinoline and benzene groups. Sensors and Actuators B: Chemical, 2017, 238, 613-618. (IF: 9.221).
    3.授权专利
    (1)冯丽恒、邓杨,一种发射红光的聚合物及其制备方法,中国,2018-04,CN106146810 B;
    国际交流与合作

    1. 合作发表论文

    (1) Yang Deng, Yue Wang, Yibo Chen, et al. Strategies for Improving the Catalytic Performance of 2D Covalent Organic Frameworks for Hydrogen Evolution and Oxygen Evolution Reactions. Chemistry-Anasian Journal, 2021, 16, 1851-1863.

    (2) Liheng Feng, Yang Deng, Xiaoju Wang, et al. Polymer fluorescent probe for Hg(II) with thiophene, benzothiazoleand quinoline groups. Sensors and Actuators B: Chemical, 2017, 245, 441-447.

    (3) Zhijiao Ji, Jia Liu, Yang Deng, et al. Accurate synergy effect of Ni–Sn dual active sites enhances electrocatalytic oxidation of urea for hydrogen evolution in alkaline medium. Journal of Material Chemistry A, 2020, 8, 14680-14689.


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